696d846a56
libsanitizer/ 2015-10-20 Maxim Ostapenko <m.ostapenko@partner.samsung.com> * All source files: Merge from upstream r250806. * configure.ac (link_sanitizer_common): Add -lrt flag. * configure.tgt: Enable TSAN and LSAN for aarch64-linux targets. Set CXX_ABI_NEEDED=true for darwin. * asan/Makefile.am (asan_files): Add new files. (DEFS): Add DCAN_SANITIZE_UB=0 and remove unused and legacy DASAN_FLEXIBLE_MAPPING_AND_OFFSET=0. * asan/Makefile.in: Regenerate. * ubsan/Makefile.am (ubsan_files): Add new files. (DEFS): Add DCAN_SANITIZE_UB=1. (libubsan_la_LIBADD): Add -lc++abi if CXX_ABI_NEEDED is true. * ubsan/Makefile.in: Regenerate. * tsan/Makefile.am (tsan_files): Add new files. (DEFS): Add DCAN_SANITIZE_UB=0. * tsan/Makefile.in: Regenerate. * sanitizer_common/Makefile.am (sanitizer_common_files): Add new files. * sanitizer_common/Makefile.in: Regenerate. * asan/libtool-version: Bump the libasan SONAME. From-SVN: r229111
486 lines
16 KiB
C++
486 lines
16 KiB
C++
//===-- tsan_rtl_mutex.cc -------------------------------------------------===//
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file is a part of ThreadSanitizer (TSan), a race detector.
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//
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//===----------------------------------------------------------------------===//
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#include <sanitizer_common/sanitizer_deadlock_detector_interface.h>
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#include <sanitizer_common/sanitizer_stackdepot.h>
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#include "tsan_rtl.h"
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#include "tsan_flags.h"
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#include "tsan_sync.h"
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#include "tsan_report.h"
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#include "tsan_symbolize.h"
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#include "tsan_platform.h"
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namespace __tsan {
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void ReportDeadlock(ThreadState *thr, uptr pc, DDReport *r);
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struct Callback : DDCallback {
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ThreadState *thr;
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uptr pc;
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Callback(ThreadState *thr, uptr pc)
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: thr(thr)
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, pc(pc) {
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DDCallback::pt = thr->dd_pt;
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DDCallback::lt = thr->dd_lt;
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}
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u32 Unwind() override { return CurrentStackId(thr, pc); }
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int UniqueTid() override { return thr->unique_id; }
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};
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void DDMutexInit(ThreadState *thr, uptr pc, SyncVar *s) {
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Callback cb(thr, pc);
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ctx->dd->MutexInit(&cb, &s->dd);
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s->dd.ctx = s->GetId();
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}
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static void ReportMutexMisuse(ThreadState *thr, uptr pc, ReportType typ,
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uptr addr, u64 mid) {
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// In Go, these misuses are either impossible, or detected by std lib,
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// or false positives (e.g. unlock in a different thread).
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if (kGoMode)
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return;
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ThreadRegistryLock l(ctx->thread_registry);
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ScopedReport rep(typ);
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rep.AddMutex(mid);
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VarSizeStackTrace trace;
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ObtainCurrentStack(thr, pc, &trace);
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rep.AddStack(trace, true);
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rep.AddLocation(addr, 1);
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OutputReport(thr, rep);
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}
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void MutexCreate(ThreadState *thr, uptr pc, uptr addr,
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bool rw, bool recursive, bool linker_init) {
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DPrintf("#%d: MutexCreate %zx\n", thr->tid, addr);
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StatInc(thr, StatMutexCreate);
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if (!linker_init && IsAppMem(addr)) {
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CHECK(!thr->is_freeing);
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thr->is_freeing = true;
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MemoryWrite(thr, pc, addr, kSizeLog1);
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thr->is_freeing = false;
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}
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SyncVar *s = ctx->metamap.GetOrCreateAndLock(thr, pc, addr, true);
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s->is_rw = rw;
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s->is_recursive = recursive;
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s->is_linker_init = linker_init;
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if (kCppMode && s->creation_stack_id == 0)
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s->creation_stack_id = CurrentStackId(thr, pc);
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s->mtx.Unlock();
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}
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void MutexDestroy(ThreadState *thr, uptr pc, uptr addr) {
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DPrintf("#%d: MutexDestroy %zx\n", thr->tid, addr);
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StatInc(thr, StatMutexDestroy);
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#ifndef SANITIZER_GO
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// Global mutexes not marked as LINKER_INITIALIZED
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// cause tons of not interesting reports, so just ignore it.
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if (IsGlobalVar(addr))
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return;
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#endif
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if (IsAppMem(addr)) {
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CHECK(!thr->is_freeing);
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thr->is_freeing = true;
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MemoryWrite(thr, pc, addr, kSizeLog1);
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thr->is_freeing = false;
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}
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SyncVar *s = ctx->metamap.GetIfExistsAndLock(addr);
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if (s == 0)
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return;
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if (common_flags()->detect_deadlocks) {
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Callback cb(thr, pc);
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ctx->dd->MutexDestroy(&cb, &s->dd);
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ctx->dd->MutexInit(&cb, &s->dd);
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}
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bool unlock_locked = false;
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if (flags()->report_destroy_locked
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&& s->owner_tid != SyncVar::kInvalidTid
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&& !s->is_broken) {
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s->is_broken = true;
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unlock_locked = true;
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}
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u64 mid = s->GetId();
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u32 last_lock = s->last_lock;
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if (!unlock_locked)
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s->Reset(thr); // must not reset it before the report is printed
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s->mtx.Unlock();
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if (unlock_locked) {
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ThreadRegistryLock l(ctx->thread_registry);
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ScopedReport rep(ReportTypeMutexDestroyLocked);
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rep.AddMutex(mid);
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VarSizeStackTrace trace;
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ObtainCurrentStack(thr, pc, &trace);
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rep.AddStack(trace);
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FastState last(last_lock);
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RestoreStack(last.tid(), last.epoch(), &trace, 0);
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rep.AddStack(trace, true);
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rep.AddLocation(addr, 1);
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OutputReport(thr, rep);
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}
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if (unlock_locked) {
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SyncVar *s = ctx->metamap.GetIfExistsAndLock(addr);
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if (s != 0) {
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s->Reset(thr);
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s->mtx.Unlock();
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}
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}
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thr->mset.Remove(mid);
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// s will be destroyed and freed in MetaMap::FreeBlock.
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}
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void MutexLock(ThreadState *thr, uptr pc, uptr addr, int rec, bool try_lock) {
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DPrintf("#%d: MutexLock %zx rec=%d\n", thr->tid, addr, rec);
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CHECK_GT(rec, 0);
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if (IsAppMem(addr))
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MemoryReadAtomic(thr, pc, addr, kSizeLog1);
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SyncVar *s = ctx->metamap.GetOrCreateAndLock(thr, pc, addr, true);
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thr->fast_state.IncrementEpoch();
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TraceAddEvent(thr, thr->fast_state, EventTypeLock, s->GetId());
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bool report_double_lock = false;
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if (s->owner_tid == SyncVar::kInvalidTid) {
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CHECK_EQ(s->recursion, 0);
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s->owner_tid = thr->tid;
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s->last_lock = thr->fast_state.raw();
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} else if (s->owner_tid == thr->tid) {
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CHECK_GT(s->recursion, 0);
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} else if (flags()->report_mutex_bugs && !s->is_broken) {
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s->is_broken = true;
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report_double_lock = true;
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}
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if (s->recursion == 0) {
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StatInc(thr, StatMutexLock);
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AcquireImpl(thr, pc, &s->clock);
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AcquireImpl(thr, pc, &s->read_clock);
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} else if (!s->is_recursive) {
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StatInc(thr, StatMutexRecLock);
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}
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s->recursion += rec;
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thr->mset.Add(s->GetId(), true, thr->fast_state.epoch());
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if (common_flags()->detect_deadlocks && (s->recursion - rec) == 0) {
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Callback cb(thr, pc);
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if (!try_lock)
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ctx->dd->MutexBeforeLock(&cb, &s->dd, true);
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ctx->dd->MutexAfterLock(&cb, &s->dd, true, try_lock);
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}
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u64 mid = s->GetId();
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s->mtx.Unlock();
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// Can't touch s after this point.
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if (report_double_lock)
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ReportMutexMisuse(thr, pc, ReportTypeMutexDoubleLock, addr, mid);
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if (common_flags()->detect_deadlocks) {
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Callback cb(thr, pc);
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ReportDeadlock(thr, pc, ctx->dd->GetReport(&cb));
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}
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}
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int MutexUnlock(ThreadState *thr, uptr pc, uptr addr, bool all) {
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DPrintf("#%d: MutexUnlock %zx all=%d\n", thr->tid, addr, all);
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if (IsAppMem(addr))
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MemoryReadAtomic(thr, pc, addr, kSizeLog1);
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SyncVar *s = ctx->metamap.GetOrCreateAndLock(thr, pc, addr, true);
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thr->fast_state.IncrementEpoch();
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TraceAddEvent(thr, thr->fast_state, EventTypeUnlock, s->GetId());
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int rec = 0;
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bool report_bad_unlock = false;
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if (kCppMode && (s->recursion == 0 || s->owner_tid != thr->tid)) {
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if (flags()->report_mutex_bugs && !s->is_broken) {
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s->is_broken = true;
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report_bad_unlock = true;
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}
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} else {
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rec = all ? s->recursion : 1;
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s->recursion -= rec;
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if (s->recursion == 0) {
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StatInc(thr, StatMutexUnlock);
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s->owner_tid = SyncVar::kInvalidTid;
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ReleaseStoreImpl(thr, pc, &s->clock);
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} else {
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StatInc(thr, StatMutexRecUnlock);
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}
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}
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thr->mset.Del(s->GetId(), true);
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if (common_flags()->detect_deadlocks && s->recursion == 0 &&
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!report_bad_unlock) {
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Callback cb(thr, pc);
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ctx->dd->MutexBeforeUnlock(&cb, &s->dd, true);
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}
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u64 mid = s->GetId();
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s->mtx.Unlock();
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// Can't touch s after this point.
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if (report_bad_unlock)
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ReportMutexMisuse(thr, pc, ReportTypeMutexBadUnlock, addr, mid);
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if (common_flags()->detect_deadlocks && !report_bad_unlock) {
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Callback cb(thr, pc);
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ReportDeadlock(thr, pc, ctx->dd->GetReport(&cb));
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}
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return rec;
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}
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void MutexReadLock(ThreadState *thr, uptr pc, uptr addr, bool trylock) {
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DPrintf("#%d: MutexReadLock %zx\n", thr->tid, addr);
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StatInc(thr, StatMutexReadLock);
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if (IsAppMem(addr))
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MemoryReadAtomic(thr, pc, addr, kSizeLog1);
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SyncVar *s = ctx->metamap.GetOrCreateAndLock(thr, pc, addr, false);
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thr->fast_state.IncrementEpoch();
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TraceAddEvent(thr, thr->fast_state, EventTypeRLock, s->GetId());
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bool report_bad_lock = false;
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if (s->owner_tid != SyncVar::kInvalidTid) {
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if (flags()->report_mutex_bugs && !s->is_broken) {
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s->is_broken = true;
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report_bad_lock = true;
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}
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}
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AcquireImpl(thr, pc, &s->clock);
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s->last_lock = thr->fast_state.raw();
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thr->mset.Add(s->GetId(), false, thr->fast_state.epoch());
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if (common_flags()->detect_deadlocks && s->recursion == 0) {
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Callback cb(thr, pc);
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if (!trylock)
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ctx->dd->MutexBeforeLock(&cb, &s->dd, false);
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ctx->dd->MutexAfterLock(&cb, &s->dd, false, trylock);
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}
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u64 mid = s->GetId();
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s->mtx.ReadUnlock();
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// Can't touch s after this point.
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if (report_bad_lock)
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ReportMutexMisuse(thr, pc, ReportTypeMutexBadReadLock, addr, mid);
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if (common_flags()->detect_deadlocks) {
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Callback cb(thr, pc);
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ReportDeadlock(thr, pc, ctx->dd->GetReport(&cb));
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}
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}
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void MutexReadUnlock(ThreadState *thr, uptr pc, uptr addr) {
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DPrintf("#%d: MutexReadUnlock %zx\n", thr->tid, addr);
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StatInc(thr, StatMutexReadUnlock);
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if (IsAppMem(addr))
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MemoryReadAtomic(thr, pc, addr, kSizeLog1);
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SyncVar *s = ctx->metamap.GetOrCreateAndLock(thr, pc, addr, true);
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thr->fast_state.IncrementEpoch();
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TraceAddEvent(thr, thr->fast_state, EventTypeRUnlock, s->GetId());
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bool report_bad_unlock = false;
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if (s->owner_tid != SyncVar::kInvalidTid) {
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if (flags()->report_mutex_bugs && !s->is_broken) {
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s->is_broken = true;
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report_bad_unlock = true;
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}
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}
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ReleaseImpl(thr, pc, &s->read_clock);
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if (common_flags()->detect_deadlocks && s->recursion == 0) {
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Callback cb(thr, pc);
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ctx->dd->MutexBeforeUnlock(&cb, &s->dd, false);
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}
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u64 mid = s->GetId();
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s->mtx.Unlock();
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// Can't touch s after this point.
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thr->mset.Del(mid, false);
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if (report_bad_unlock)
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ReportMutexMisuse(thr, pc, ReportTypeMutexBadReadUnlock, addr, mid);
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if (common_flags()->detect_deadlocks) {
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Callback cb(thr, pc);
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ReportDeadlock(thr, pc, ctx->dd->GetReport(&cb));
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}
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}
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void MutexReadOrWriteUnlock(ThreadState *thr, uptr pc, uptr addr) {
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DPrintf("#%d: MutexReadOrWriteUnlock %zx\n", thr->tid, addr);
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if (IsAppMem(addr))
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MemoryReadAtomic(thr, pc, addr, kSizeLog1);
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SyncVar *s = ctx->metamap.GetOrCreateAndLock(thr, pc, addr, true);
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bool write = true;
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bool report_bad_unlock = false;
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if (s->owner_tid == SyncVar::kInvalidTid) {
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// Seems to be read unlock.
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write = false;
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StatInc(thr, StatMutexReadUnlock);
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thr->fast_state.IncrementEpoch();
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TraceAddEvent(thr, thr->fast_state, EventTypeRUnlock, s->GetId());
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ReleaseImpl(thr, pc, &s->read_clock);
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} else if (s->owner_tid == thr->tid) {
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// Seems to be write unlock.
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thr->fast_state.IncrementEpoch();
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TraceAddEvent(thr, thr->fast_state, EventTypeUnlock, s->GetId());
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CHECK_GT(s->recursion, 0);
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s->recursion--;
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if (s->recursion == 0) {
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StatInc(thr, StatMutexUnlock);
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s->owner_tid = SyncVar::kInvalidTid;
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ReleaseImpl(thr, pc, &s->clock);
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} else {
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StatInc(thr, StatMutexRecUnlock);
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}
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} else if (!s->is_broken) {
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s->is_broken = true;
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report_bad_unlock = true;
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}
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thr->mset.Del(s->GetId(), write);
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if (common_flags()->detect_deadlocks && s->recursion == 0) {
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Callback cb(thr, pc);
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ctx->dd->MutexBeforeUnlock(&cb, &s->dd, write);
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}
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u64 mid = s->GetId();
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s->mtx.Unlock();
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// Can't touch s after this point.
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if (report_bad_unlock)
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ReportMutexMisuse(thr, pc, ReportTypeMutexBadUnlock, addr, mid);
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if (common_flags()->detect_deadlocks) {
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Callback cb(thr, pc);
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ReportDeadlock(thr, pc, ctx->dd->GetReport(&cb));
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}
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}
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void MutexRepair(ThreadState *thr, uptr pc, uptr addr) {
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DPrintf("#%d: MutexRepair %zx\n", thr->tid, addr);
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SyncVar *s = ctx->metamap.GetOrCreateAndLock(thr, pc, addr, true);
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s->owner_tid = SyncVar::kInvalidTid;
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s->recursion = 0;
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s->mtx.Unlock();
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}
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void Acquire(ThreadState *thr, uptr pc, uptr addr) {
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DPrintf("#%d: Acquire %zx\n", thr->tid, addr);
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if (thr->ignore_sync)
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return;
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SyncVar *s = ctx->metamap.GetOrCreateAndLock(thr, pc, addr, false);
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AcquireImpl(thr, pc, &s->clock);
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s->mtx.ReadUnlock();
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}
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static void UpdateClockCallback(ThreadContextBase *tctx_base, void *arg) {
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ThreadState *thr = reinterpret_cast<ThreadState*>(arg);
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ThreadContext *tctx = static_cast<ThreadContext*>(tctx_base);
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if (tctx->status == ThreadStatusRunning)
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thr->clock.set(tctx->tid, tctx->thr->fast_state.epoch());
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else
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thr->clock.set(tctx->tid, tctx->epoch1);
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}
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void AcquireGlobal(ThreadState *thr, uptr pc) {
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DPrintf("#%d: AcquireGlobal\n", thr->tid);
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if (thr->ignore_sync)
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return;
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ThreadRegistryLock l(ctx->thread_registry);
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ctx->thread_registry->RunCallbackForEachThreadLocked(
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UpdateClockCallback, thr);
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}
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void Release(ThreadState *thr, uptr pc, uptr addr) {
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DPrintf("#%d: Release %zx\n", thr->tid, addr);
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if (thr->ignore_sync)
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return;
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SyncVar *s = ctx->metamap.GetOrCreateAndLock(thr, pc, addr, true);
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thr->fast_state.IncrementEpoch();
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// Can't increment epoch w/o writing to the trace as well.
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TraceAddEvent(thr, thr->fast_state, EventTypeMop, 0);
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ReleaseImpl(thr, pc, &s->clock);
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s->mtx.Unlock();
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}
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void ReleaseStore(ThreadState *thr, uptr pc, uptr addr) {
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DPrintf("#%d: ReleaseStore %zx\n", thr->tid, addr);
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if (thr->ignore_sync)
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return;
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SyncVar *s = ctx->metamap.GetOrCreateAndLock(thr, pc, addr, true);
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thr->fast_state.IncrementEpoch();
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// Can't increment epoch w/o writing to the trace as well.
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TraceAddEvent(thr, thr->fast_state, EventTypeMop, 0);
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ReleaseStoreImpl(thr, pc, &s->clock);
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s->mtx.Unlock();
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}
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#ifndef SANITIZER_GO
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static void UpdateSleepClockCallback(ThreadContextBase *tctx_base, void *arg) {
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ThreadState *thr = reinterpret_cast<ThreadState*>(arg);
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ThreadContext *tctx = static_cast<ThreadContext*>(tctx_base);
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if (tctx->status == ThreadStatusRunning)
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thr->last_sleep_clock.set(tctx->tid, tctx->thr->fast_state.epoch());
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else
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thr->last_sleep_clock.set(tctx->tid, tctx->epoch1);
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}
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void AfterSleep(ThreadState *thr, uptr pc) {
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DPrintf("#%d: AfterSleep %zx\n", thr->tid);
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if (thr->ignore_sync)
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return;
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thr->last_sleep_stack_id = CurrentStackId(thr, pc);
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ThreadRegistryLock l(ctx->thread_registry);
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ctx->thread_registry->RunCallbackForEachThreadLocked(
|
|
UpdateSleepClockCallback, thr);
|
|
}
|
|
#endif
|
|
|
|
void AcquireImpl(ThreadState *thr, uptr pc, SyncClock *c) {
|
|
if (thr->ignore_sync)
|
|
return;
|
|
thr->clock.set(thr->fast_state.epoch());
|
|
thr->clock.acquire(&thr->clock_cache, c);
|
|
StatInc(thr, StatSyncAcquire);
|
|
}
|
|
|
|
void ReleaseImpl(ThreadState *thr, uptr pc, SyncClock *c) {
|
|
if (thr->ignore_sync)
|
|
return;
|
|
thr->clock.set(thr->fast_state.epoch());
|
|
thr->fast_synch_epoch = thr->fast_state.epoch();
|
|
thr->clock.release(&thr->clock_cache, c);
|
|
StatInc(thr, StatSyncRelease);
|
|
}
|
|
|
|
void ReleaseStoreImpl(ThreadState *thr, uptr pc, SyncClock *c) {
|
|
if (thr->ignore_sync)
|
|
return;
|
|
thr->clock.set(thr->fast_state.epoch());
|
|
thr->fast_synch_epoch = thr->fast_state.epoch();
|
|
thr->clock.ReleaseStore(&thr->clock_cache, c);
|
|
StatInc(thr, StatSyncRelease);
|
|
}
|
|
|
|
void AcquireReleaseImpl(ThreadState *thr, uptr pc, SyncClock *c) {
|
|
if (thr->ignore_sync)
|
|
return;
|
|
thr->clock.set(thr->fast_state.epoch());
|
|
thr->fast_synch_epoch = thr->fast_state.epoch();
|
|
thr->clock.acq_rel(&thr->clock_cache, c);
|
|
StatInc(thr, StatSyncAcquire);
|
|
StatInc(thr, StatSyncRelease);
|
|
}
|
|
|
|
void ReportDeadlock(ThreadState *thr, uptr pc, DDReport *r) {
|
|
if (r == 0)
|
|
return;
|
|
ThreadRegistryLock l(ctx->thread_registry);
|
|
ScopedReport rep(ReportTypeDeadlock);
|
|
for (int i = 0; i < r->n; i++) {
|
|
rep.AddMutex(r->loop[i].mtx_ctx0);
|
|
rep.AddUniqueTid((int)r->loop[i].thr_ctx);
|
|
rep.AddThread((int)r->loop[i].thr_ctx);
|
|
}
|
|
uptr dummy_pc = 0x42;
|
|
for (int i = 0; i < r->n; i++) {
|
|
for (int j = 0; j < (flags()->second_deadlock_stack ? 2 : 1); j++) {
|
|
u32 stk = r->loop[i].stk[j];
|
|
if (stk && stk != 0xffffffff) {
|
|
rep.AddStack(StackDepotGet(stk), true);
|
|
} else {
|
|
// Sometimes we fail to extract the stack trace (FIXME: investigate),
|
|
// but we should still produce some stack trace in the report.
|
|
rep.AddStack(StackTrace(&dummy_pc, 1), true);
|
|
}
|
|
}
|
|
}
|
|
OutputReport(thr, rep);
|
|
}
|
|
|
|
} // namespace __tsan
|